Our assignment is to consider the school and answer the question on how do we that the life cycle was developed specifically for the university and if it meets our needs.
At first, I was wondering what this particular “life cycle” really means. I was thinking of living things that is developing and maturing just for instance the metamorphosis of a butterfly. But it’s all about the university that’s why I’m trying to realize the true meaning of the phrase “life cycle of the university” if I’m not mistaken to understand the task.
When I searched in the internet about the “life cycle”, I found variations of meaning in varied fields. From biological to enterprise and from the new product development to life cycle assessment; also from Product life cycle management to project life cycle; there’s also from software life cycle to Systems Development Life Cycle so as the SOA Lifecycle.
I know, some of the terms in which the phrase “life cycle” is referred to be insignificant for this assignment but some relates to the topic especially that this topic is in the course System Analysis and Design which means it has something to do with the Systems. Be it on its planning, implementation or deployment in the organization. And the University of Southeastern Philippines is an organization or shall w say an institution whatever you call it.
So I considered Systems Development Life Cycle.
Let me discuss first about the university primarily its vision, mission, goals and objectives which are part of the university’s information system planning.
About USEP
The University of Southeastern Philippines (USEP) is a regional state university created in 1978 through Batas Pambansa Bilang 12. The university is an integration of four state institutions, particularly, the Mindanao State University-Davao, the University of the Philippines-Master of Management Program in Davao, the Davao School of Arts and Trades, and the Davao National Regional Agricultural School.
The university has four campuses, namely, Obrero (main) and Mintal Campuses in Davao City, Tagum-Mabini Campus which has two units – one in Tagum City and one in Compostela Valley Province, and Bislig Campus in Surigao del Sur.
The USEP offers graduate and undergraduate academic programs in the fields of engineering, education, arts and sciences, economics, business, computing, governance, development, resource management, technology, agriculture and forestry.
The University of Southeastern Philippines has the following mandate:
To provide programs of instruction and professional training primarily in the fields of science and technology, especially medicine, fisheries, engineering and industrial fields.
To promote advanced studies, research and extension services and progressive leadership in science, agriculture, forestry, fisheries, engineering and industrial fields and other courses needed in the socio-economic development of Mindanao.
To develop courses at the graduate level along the fields of specialization and to respond to the needs of development workers in the academic community.
To provide non-formal education and undertake vigorous extension and research programs in food production, nutrition, health and sports development.
To offer scholarship and/or part-time job opportunities to deserving students from low-income families.
Mission
USEP shall produce world-class graduates
and relevant research and extension
through quality education and sustainable resource management.
Particularly, USEP is committed to:
Provide quality education for students to grow in knowledge, promote their well-rounded development, and make them globally competitive in the world of work;
Engage in high impact research, not only for knowledge’s sake, but also for its practical benefits to society; and,
Promote entrepreneurship and industry collaboration.
Vision
A PREMIER UNIVERSITY IN THE ASEAN REGION
By becoming a premier university in the ASEAN Region, the USEP shall be a center of excellence and development, responsive and adaptive to fast-changing environments. USEP shall also be known as the leading university in the country that fosters innovation and applies knowledge to create value towards social, economic, and technological developments.
Goals
Aligned with the university 's vision and mission are specific goals for Key Result Areas (KRA) on Instruction; Research, Development, and Extension; and Resource Management:
KRA 1. Instruction
Produce globally competitive and morally upright graduates
KRA 2. Research, Development, and Extension (RDE)
Develop a strong R,D,&E culture with competent human resource and responsive and relevant researches that are adopted and utilized for development
KRA 3. Resource Management
Upon mentioning about the university, the term ISP is included. It is said that an information system (IS) within an organisation should be established on the basis of clearly defined potential benefits (Galliers & Sutherland, 1991). To achieve these, the organisation should have a strong and well-developed strategic information system plan (SISP), that consists of a strategy for both information planning and management, including the use of functions and features of information technology (IT) (Galliers, Swatman & Swatman, 1995). Users should perceive the value of the system and the information delivered (Strauss, 1992a). SISP within a tertiary educational institutions, is important for the successful use of an IS service.
The university, as far as we know it is already developing an IS in the move towards the creation of university information systems the value of a CWIS is dependent on its effective utilization, fostered by effective planning. However, it appears that strategic planning in our university has not yet been observed especially by the students and the faculties and the even the staffs.
Information Systems in Higher Education
Traditionally, information sharing among university members has relied on a range of printed materials. Computer technology created opportunities on university campuses for sharing data and information among the staff and the students, and has been deployed since the late fifties (Sullivan, 1996, p.117). University information systems range from library systems, registration systems and financial systems, to campus-housing systems and other university service systems.
Systems were often established in an uncoordinated manner, reflecting interests in different areas, and resulting in issues of redundancy and inefficiency. For example, student affairs, library, and a faculty may have the same information about a student although they use different systems to keep it (Malaney & Alvarez, 1996, p.75). Moves beyond this have resulted in “a single well-known service”, from which information can be accessed regardless of the information providers within the university (Wiggins, 1995, p.510). Such a service, an early example of which was CUINFO at Cornell University, has now been recognised as a CWIS, which is implemented as a central information service for the whole university community.
Strategic planning for information systems
Remenyi (1990) explains what makes IS "strategic" is that it directly supports and shapes the competitive strategy of an organisation. He considers that it may function as a management information system or a management support system. He argues that because SIS deals directly in the business line of the organisation by “finding, getting, and keeping clients, it is therefore a strategic resource. Orna (1990) describes strategic IS using her concept of “enterprise information policy” (EIP). She contends that as a dynamic tool, EIP can be used:
- to relate everything done with information to an enterprise’s overall objective;
- to enable effective decisions on resource allocation;
- to promote interaction, communication and mutual support between all parts of the enterprise, and between the enterprise and its ‘customers’ and ‘public’;
- to provide objective criteria for assessing results of information-based activities;
- to give feedback to the process of developing the corporate policies enterprise.
Ward, Griffiths & Whitmore (1990, p.88) see that objectives for strategic planning should be to build a robust information management framework for the long-term management of information and its supporting technologies, and to:
- identify current and future information needs for the organisation that reflect close alignment of business and IS/IT strategies, objectives and functions;
- determine policies for the management, creation, maintenance, control and accessibility of the corporate information resource;
- reposition IS/IT function more centrally in the business, with representation at top management level;
- ensure that sound IS architecture is created so that high quality systems can be built and maintained;
- identify a portfolio of skills that will be required over the lifetime of the plans;
At first, I was wondering what this particular “life cycle” really means. I was thinking of living things that is developing and maturing just for instance the metamorphosis of a butterfly. But it’s all about the university that’s why I’m trying to realize the true meaning of the phrase “life cycle of the university” if I’m not mistaken to understand the task.
When I searched in the internet about the “life cycle”, I found variations of meaning in varied fields. From biological to enterprise and from the new product development to life cycle assessment; also from Product life cycle management to project life cycle; there’s also from software life cycle to Systems Development Life Cycle so as the SOA Lifecycle.
I know, some of the terms in which the phrase “life cycle” is referred to be insignificant for this assignment but some relates to the topic especially that this topic is in the course System Analysis and Design which means it has something to do with the Systems. Be it on its planning, implementation or deployment in the organization. And the University of Southeastern Philippines is an organization or shall w say an institution whatever you call it.
So I considered Systems Development Life Cycle.
Let me discuss first about the university primarily its vision, mission, goals and objectives which are part of the university’s information system planning.
About USEP
The University of Southeastern Philippines (USEP) is a regional state university created in 1978 through Batas Pambansa Bilang 12. The university is an integration of four state institutions, particularly, the Mindanao State University-Davao, the University of the Philippines-Master of Management Program in Davao, the Davao School of Arts and Trades, and the Davao National Regional Agricultural School.
The university has four campuses, namely, Obrero (main) and Mintal Campuses in Davao City, Tagum-Mabini Campus which has two units – one in Tagum City and one in Compostela Valley Province, and Bislig Campus in Surigao del Sur.
The USEP offers graduate and undergraduate academic programs in the fields of engineering, education, arts and sciences, economics, business, computing, governance, development, resource management, technology, agriculture and forestry.
The University of Southeastern Philippines has the following mandate:
To provide programs of instruction and professional training primarily in the fields of science and technology, especially medicine, fisheries, engineering and industrial fields.
To promote advanced studies, research and extension services and progressive leadership in science, agriculture, forestry, fisheries, engineering and industrial fields and other courses needed in the socio-economic development of Mindanao.
To develop courses at the graduate level along the fields of specialization and to respond to the needs of development workers in the academic community.
To provide non-formal education and undertake vigorous extension and research programs in food production, nutrition, health and sports development.
To offer scholarship and/or part-time job opportunities to deserving students from low-income families.
Mission
USEP shall produce world-class graduates
and relevant research and extension
through quality education and sustainable resource management.
Particularly, USEP is committed to:
Provide quality education for students to grow in knowledge, promote their well-rounded development, and make them globally competitive in the world of work;
Engage in high impact research, not only for knowledge’s sake, but also for its practical benefits to society; and,
Promote entrepreneurship and industry collaboration.
Vision
A PREMIER UNIVERSITY IN THE ASEAN REGION
By becoming a premier university in the ASEAN Region, the USEP shall be a center of excellence and development, responsive and adaptive to fast-changing environments. USEP shall also be known as the leading university in the country that fosters innovation and applies knowledge to create value towards social, economic, and technological developments.
Goals
Aligned with the university 's vision and mission are specific goals for Key Result Areas (KRA) on Instruction; Research, Development, and Extension; and Resource Management:
KRA 1. Instruction
Produce globally competitive and morally upright graduates
KRA 2. Research, Development, and Extension (RDE)
Develop a strong R,D,&E culture with competent human resource and responsive and relevant researches that are adopted and utilized for development
KRA 3. Resource Management
Upon mentioning about the university, the term ISP is included. It is said that an information system (IS) within an organisation should be established on the basis of clearly defined potential benefits (Galliers & Sutherland, 1991). To achieve these, the organisation should have a strong and well-developed strategic information system plan (SISP), that consists of a strategy for both information planning and management, including the use of functions and features of information technology (IT) (Galliers, Swatman & Swatman, 1995). Users should perceive the value of the system and the information delivered (Strauss, 1992a). SISP within a tertiary educational institutions, is important for the successful use of an IS service.
The university, as far as we know it is already developing an IS in the move towards the creation of university information systems the value of a CWIS is dependent on its effective utilization, fostered by effective planning. However, it appears that strategic planning in our university has not yet been observed especially by the students and the faculties and the even the staffs.
Information Systems in Higher Education
Traditionally, information sharing among university members has relied on a range of printed materials. Computer technology created opportunities on university campuses for sharing data and information among the staff and the students, and has been deployed since the late fifties (Sullivan, 1996, p.117). University information systems range from library systems, registration systems and financial systems, to campus-housing systems and other university service systems.
Systems were often established in an uncoordinated manner, reflecting interests in different areas, and resulting in issues of redundancy and inefficiency. For example, student affairs, library, and a faculty may have the same information about a student although they use different systems to keep it (Malaney & Alvarez, 1996, p.75). Moves beyond this have resulted in “a single well-known service”, from which information can be accessed regardless of the information providers within the university (Wiggins, 1995, p.510). Such a service, an early example of which was CUINFO at Cornell University, has now been recognised as a CWIS, which is implemented as a central information service for the whole university community.
Strategic planning for information systems
Remenyi (1990) explains what makes IS "strategic" is that it directly supports and shapes the competitive strategy of an organisation. He considers that it may function as a management information system or a management support system. He argues that because SIS deals directly in the business line of the organisation by “finding, getting, and keeping clients, it is therefore a strategic resource. Orna (1990) describes strategic IS using her concept of “enterprise information policy” (EIP). She contends that as a dynamic tool, EIP can be used:
- to relate everything done with information to an enterprise’s overall objective;
- to enable effective decisions on resource allocation;
- to promote interaction, communication and mutual support between all parts of the enterprise, and between the enterprise and its ‘customers’ and ‘public’;
- to provide objective criteria for assessing results of information-based activities;
- to give feedback to the process of developing the corporate policies enterprise.
Ward, Griffiths & Whitmore (1990, p.88) see that objectives for strategic planning should be to build a robust information management framework for the long-term management of information and its supporting technologies, and to:
- identify current and future information needs for the organisation that reflect close alignment of business and IS/IT strategies, objectives and functions;
- determine policies for the management, creation, maintenance, control and accessibility of the corporate information resource;
- reposition IS/IT function more centrally in the business, with representation at top management level;
- ensure that sound IS architecture is created so that high quality systems can be built and maintained;
- identify a portfolio of skills that will be required over the lifetime of the plans;
- determine an effective and achievable organisation structure for the IS/IT function;
- ensure that the IS/IT function is outward looking and not focused internally on technology issues, and that the aims are widely communicated;
- ensure that there is an acceptance of shared responsibility between IS/IT and business people for the successful exploitation of information and IT.
SISP in higher education
Van Valey & Poole (1994) surveyed existing computing activities at Western Michigan University (WMU) in order to put forward a plan for the expansion of the computer technology to facilitate its effective use. The result of this survey indicates that information about existing computing activities, although not explicitly described as a strategic issue, is very useful for further planning and decision making processes in the university.
Tellis (1997) conducted a similar study using documentation analysis and a survey questionnaire. He investigated the managerial and economic aspects of employing information technology in Fairfield University. Like the WMU study before, which does not explicitly acknowledge strategic planning, Tellis's work indicates how a university should manage its information system with respect to IT management planning.
Luby (1996) conducted semi-structured interviews in order to investigate the process of strategic planning in the University of Paisley. The study shows that the process of strategic planning requires the university managers to recognise the complexity of a university environment and to create university staff awareness of this complexity. Accordingly, Luby recommends that all university staff should have what is called a "strategic perspective" for basic action in the planning process. With this perspective, each staff member should have a personal development plan relevant to the university strategic plan.
Project management
I also mentioned on Project management.
So what is it? It is the discipline of planning, organizing, and managing resources to bring about the successful completion of specific project goals and objectives. It is often closely related to and sometimes conflated with program management.
The primary challenge of project management is to achieve all of the project goalsand objectives while honoring the preconceived project constraints. Typical constraints are scope, time, and budget. The secondary—and more ambitious—challenge is to optimize the allocation and integration of inputs necessary to meet pre-defined objectives.
Regardless of the methodology employed, careful consideration must be given to the overall project objectives, timeline, and cost, as well as the roles and responsibilities of all participants and stakeholders.
A traditional phased approach identifies a sequence of steps to be completed. In the "traditional approach", we can distinguish 5 components of a project (4 stages plus control) in the development of a project:
• Typical development phases of a project
• Project initiation stage;
• Project planning or design stage;
• Project execution or production stage;
• Project monitoring and controlling systems;
• Project completion stage.
Regardless of the methodology employed, careful consideration must be given to the overall project objectives, timeline, and cost, as well as the roles and responsibilities of all participants and stakeholders.
A traditional phased approach identifies a sequence of steps to be completed. In the "traditional approach", we can distinguish 5 components of a project (4 stages plus control) in the development of a project:
Typical development phases of a project
• Project initiation stage;
• Project planning or design stage;
• Project execution or production stage;
• Project monitoring and controlling systems;
• Project completion stage.
Part of the ISP is the Systems Development Life Cycle (SDLC), or Software Development Life Cycle in systems engineering and software engineering, is the process of creating or altering systems, and the models and methodologies that people use to develop these systems. The concept generally refers to computer or information systems.
In software engineering the SDLC concept underpins many kinds of software development methodologies. These methodologies form the framework for planning and controlling the creation of an information system or the software development process.
A Systems Development Life Cycle (SDLC) is any logical process used by a systems analyst to develop an information system, including requirements, validation, training, and user (stakeholder) ownership. Any SDLC should result in a high quality system that meets or exceeds customer expectations, reaches completion within time and cost estimates, works effectively and efficiently in the current and planned Information Technology infrastructure, and is inexpensive to maintain and cost-effective to enhance.
Computer systems have become more complex and often (especially with the advent of Service-Oriented Architecture) link multiple traditional systems potentially supplied by different software vendors. To manage this level of complexity, a number of systems development life cycle (SDLC) models have been created: "waterfall"; "fountain"; "spiral"; "build and fix"; "rapid prototyping"; "incremental"; and "synchronize and stabilize".[citation needed]
SDLC models can be described along a spectrum of agile to iterative to sequential. Agile methodologies, such as XP and Scrum, focus on light-weight processes which allow for rapid changes along the development cycle. Iterative methodologies, such as Rational Unified Process and Dynamic Systems Development Method, focus on limited project scopes and expanding or improving products by multiple iterations. Sequential or big-design-upfront (BDUF) models, such as Waterfall, focus on complete and correct planning to guide large projects and risks to successful and predictable results.
In project management a project can be defined both with a project life cycle (PLC) and an SDLC, during which slightly different activities occur. According to Taylor (2004) "the project life cycle encompasses all the activities of the project, while the systems development life cycle focuses on realizing the product requirements".
University context and IS
(How do we know that the life cycle was developed specifically for the university?)
There was significant correlation between perception of effectiveness of information providers and perceived functioning of the IS.
How the IS would strategically be planned, and staff awareness of the importance of an IS, would influence the functioning or the performance of the IS.
Although appropriate organizational culture was regarded as necessary for development of IS, strong support was given to the following factors of influence: institutional guidelines and priorities; clear objectives for the campus IS; infrastructure; staff demands; budget planning and control; feasible and appropriate resources; management support and consistency; academic staff awareness.
There was also support for the need for strategic planning, the improvement of staff’s skills, and for an information policy with respect to the development of IS.
(How do we know that the life cycle meets our needs?)
For me, the life cycle of the university certainly meets our needs but it is also a reality that it is not yet properly implemented. I really know when that time will come that the ISP will be visible in the university. And when that is time the student come to realize the essence of the existing life cycle of the university so that, it not just documentation but a realization. ISP is a great help to achieve our visions and recognize our goals and objectives. What we really need is to work by hand not just on tongue.
References:
- ensure that the IS/IT function is outward looking and not focused internally on technology issues, and that the aims are widely communicated;
- ensure that there is an acceptance of shared responsibility between IS/IT and business people for the successful exploitation of information and IT.
SISP in higher education
Van Valey & Poole (1994) surveyed existing computing activities at Western Michigan University (WMU) in order to put forward a plan for the expansion of the computer technology to facilitate its effective use. The result of this survey indicates that information about existing computing activities, although not explicitly described as a strategic issue, is very useful for further planning and decision making processes in the university.
Tellis (1997) conducted a similar study using documentation analysis and a survey questionnaire. He investigated the managerial and economic aspects of employing information technology in Fairfield University. Like the WMU study before, which does not explicitly acknowledge strategic planning, Tellis's work indicates how a university should manage its information system with respect to IT management planning.
Luby (1996) conducted semi-structured interviews in order to investigate the process of strategic planning in the University of Paisley. The study shows that the process of strategic planning requires the university managers to recognise the complexity of a university environment and to create university staff awareness of this complexity. Accordingly, Luby recommends that all university staff should have what is called a "strategic perspective" for basic action in the planning process. With this perspective, each staff member should have a personal development plan relevant to the university strategic plan.
Project management
I also mentioned on Project management.
So what is it? It is the discipline of planning, organizing, and managing resources to bring about the successful completion of specific project goals and objectives. It is often closely related to and sometimes conflated with program management.
The primary challenge of project management is to achieve all of the project goalsand objectives while honoring the preconceived project constraints. Typical constraints are scope, time, and budget. The secondary—and more ambitious—challenge is to optimize the allocation and integration of inputs necessary to meet pre-defined objectives.
Regardless of the methodology employed, careful consideration must be given to the overall project objectives, timeline, and cost, as well as the roles and responsibilities of all participants and stakeholders.
A traditional phased approach identifies a sequence of steps to be completed. In the "traditional approach", we can distinguish 5 components of a project (4 stages plus control) in the development of a project:
• Typical development phases of a project
• Project initiation stage;
• Project planning or design stage;
• Project execution or production stage;
• Project monitoring and controlling systems;
• Project completion stage.
Regardless of the methodology employed, careful consideration must be given to the overall project objectives, timeline, and cost, as well as the roles and responsibilities of all participants and stakeholders.
A traditional phased approach identifies a sequence of steps to be completed. In the "traditional approach", we can distinguish 5 components of a project (4 stages plus control) in the development of a project:
Typical development phases of a project
• Project initiation stage;
• Project planning or design stage;
• Project execution or production stage;
• Project monitoring and controlling systems;
• Project completion stage.
Part of the ISP is the Systems Development Life Cycle (SDLC), or Software Development Life Cycle in systems engineering and software engineering, is the process of creating or altering systems, and the models and methodologies that people use to develop these systems. The concept generally refers to computer or information systems.
In software engineering the SDLC concept underpins many kinds of software development methodologies. These methodologies form the framework for planning and controlling the creation of an information system or the software development process.
A Systems Development Life Cycle (SDLC) is any logical process used by a systems analyst to develop an information system, including requirements, validation, training, and user (stakeholder) ownership. Any SDLC should result in a high quality system that meets or exceeds customer expectations, reaches completion within time and cost estimates, works effectively and efficiently in the current and planned Information Technology infrastructure, and is inexpensive to maintain and cost-effective to enhance.
Computer systems have become more complex and often (especially with the advent of Service-Oriented Architecture) link multiple traditional systems potentially supplied by different software vendors. To manage this level of complexity, a number of systems development life cycle (SDLC) models have been created: "waterfall"; "fountain"; "spiral"; "build and fix"; "rapid prototyping"; "incremental"; and "synchronize and stabilize".[citation needed]
SDLC models can be described along a spectrum of agile to iterative to sequential. Agile methodologies, such as XP and Scrum, focus on light-weight processes which allow for rapid changes along the development cycle. Iterative methodologies, such as Rational Unified Process and Dynamic Systems Development Method, focus on limited project scopes and expanding or improving products by multiple iterations. Sequential or big-design-upfront (BDUF) models, such as Waterfall, focus on complete and correct planning to guide large projects and risks to successful and predictable results.
In project management a project can be defined both with a project life cycle (PLC) and an SDLC, during which slightly different activities occur. According to Taylor (2004) "the project life cycle encompasses all the activities of the project, while the systems development life cycle focuses on realizing the product requirements".
University context and IS
(How do we know that the life cycle was developed specifically for the university?)
There was significant correlation between perception of effectiveness of information providers and perceived functioning of the IS.
How the IS would strategically be planned, and staff awareness of the importance of an IS, would influence the functioning or the performance of the IS.
Although appropriate organizational culture was regarded as necessary for development of IS, strong support was given to the following factors of influence: institutional guidelines and priorities; clear objectives for the campus IS; infrastructure; staff demands; budget planning and control; feasible and appropriate resources; management support and consistency; academic staff awareness.
There was also support for the need for strategic planning, the improvement of staff’s skills, and for an information policy with respect to the development of IS.
(How do we know that the life cycle meets our needs?)
For me, the life cycle of the university certainly meets our needs but it is also a reality that it is not yet properly implemented. I really know when that time will come that the ISP will be visible in the university. And when that is time the student come to realize the essence of the existing life cycle of the university so that, it not just documentation but a realization. ISP is a great help to achieve our visions and recognize our goals and objectives. What we really need is to work by hand not just on tongue.
References:
http://www.usep.edu.ph
http://eprints.qut.edu.au/96/1/Middleton_CWIS_99_eprint.pdf
http://en.wikipedia.org/wiki/Project_life_cycle#Project_development_stages
http://en.wikipedia.org/wiki/Systems_Development_Life_Cycle